Shie Chang Jeng scite author profile

A broadband cholesteric liquid crystal (CLC) device with a multi-domain structure is demonstrated by using an aggregation of polyhedral oligomeric silsesquioxane (POSS) nanoparticles in the CLC layer. The aggregation pattern of the self-assembled POSS nanoparticles depends on the concentration of POSS doped in the mixture of POSS/CLC and the cooling rate of the mixture from a temperature higher than the clear point. POSS-induced changes in the bulk and surface properties of the cholesteric cells, such as a promotion of homeotropic alignment, help to form a cholesteric structure with a broadband reflection of light; the latter can be used for improvement of bistable CLC devices. A higher POSS concentration and a higher cooling rate both improve the appearance of the black-white CLC device.

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Applications of Tamm plasmon-liquid crystal devices

Jeng

2020

Liquid Crystals

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Application of Bombyx mori Silk Fibroin Films for Liquid-Crystal Devices

Hou

Jeng

2020

ACS Appl. Bio Mater.

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Biocompatible and biodegradable silk fibroin films show promise as an eco-friendly biomaterial with excellent mechanical, thermal, and optical transparency properties. In contrast, polyimide (PI) films adopted in the liquid-crystal display (LCD) industry for aligning LC molecules are synthesized using toxic chemicals, which are nonrecyclable and nonbiodegradable. In this work, Bombyx mori silk fibroin films are fabricated from the aqueous solution and applied as alignment films for LCDs. The thermal properties of the prepared regenerated silk fibroin materials under different heat treatment temperatures are investigated using differential scanning calorimetry (DSC) and thermogravimetric analysis (TGA). The crystallinity of different heat-treated silk fibroin materials is determined by infrared spectroscopy. The silk fibroin film treated at a higher temperature exhibits better thermal stability due to the higher crystallinity of the β-form structure. The LCDs using silk fibroin alignment films show a low pretilt angle of 0.5° and an anchoring energy of ∼10–3 J/m2 similar to those of the conventional polyimide films.

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Technologies toward flexible liquid-crystal displays

Jeng¹,

Chang²,

Ding³

et al. 2005

J. Soc. Inf. Display

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Abstract— Several leading technologies for flexible liquid‐crystal displays have been developed recently at ERSO. The roll‐to‐roll compatible techniques, polymer‐added liquid crystal, have been applied on a film‐like substrate. A flexible black‐and‐white cholesteric liquid‐crystal display was also implemented by photo‐induced phase separation. Color filters placed on a plastic substrate by a low‐temperature manufacturing process was successfully fabricated. A novel design of a wide‐viewing‐angle color plastic LCD was also proposed.

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Low-aberration liquid crystal lens with positive and negative focal length

2020

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A low-aberration hole-patterned-electrodes (HPE) liquid crystal (LC) lens with positive and negative focal lengths is demonstrated in this Letter by using four hybrid-aligned nematic LC layers filled with dual-frequency LC materials. The diopter can be controlled from the positive lens ( 0 D ∼ 1.1 D ) to the negative lens ( 0 D ∼ − 1.25 D ). The aberration is analyzed using the Zernike polynomial, and the wavefront optical path difference is improved from 2 λ for the conventional one-layer HPE LC lens to less than 0.25 λ for our proposed LC lens. The proposed LC lens does not require the use of a polarizer, increasing the optical efficiency two times compared with the conventional LC lens.

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Shie Chang Jeng

Cholesteric liquid crystal devices with nanoparticle aggregation

Applications of Tamm plasmon-liquid crystal devices

Application of Bombyx mori Silk Fibroin Films for Liquid-Crystal Devices

Technologies toward flexible liquid-crystal displays

Low-aberration liquid crystal lens with positive and negative focal length

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